Lin Cheng1, Qiong Jiao2, Yuchen Jin1, Hao Fu1, Huizhen Zhang2, Libo Chen1. 1. Department of Nuclear Medicine, Shanghai Jiao Tong University Affiliated Sixth People's Hospital, Shanghai, People's Republic of China. 2. Department of Pathology, Shanghai Jiao Tong University Affiliated Sixth People's Hospital, Shanghai, People's Republic of China.
Abstract
Preclinical studies have demonstrated that Apatinib, major targeting vascular endothelial growth factor receptor-2 (VEGFR-2), could inhibit the proliferation of anaplastic thyroid carcinoma (ATC) cells in vitro and in vivo. The efficacy and safety in ATC patients, however, remains unknown. Here, we report the case of a 93-year-old female with advanced ATC who initially treated with Apatinib. The tumor shrank notably 4 weeks after the initiation of therapy, which sustained for more than 30 weeks. The cervical CT illuminated a stable disease with a best response of 19.7% of the primary lesion and shrinkage of the metastatic lymph node. Adverse events, including hypertension, dental ulcer, hand-foot syndrome, fatigue, and anorexia, were observed and lightened with supportive treatment and dose reductions. The overall survival of the patient was 41 weeks. This is the first report describing the effectiveness of the VEGFR-2 inhibitor for the treatment of advanced ATC, warranting clinical trials to further ascertain its utility in this challenging setting.
Preclinical studies have demonstrated that Apatinib, major targeting vascular endothelial growth factor receptor-2 (VEGFR-2), could inhibit the proliferation of anaplastic thyroid carcinoma (ATC) cells in vitro and in vivo. The efficacy and safety in ATCpatients, however, remains unknown. Here, we report the case of a 93-year-old female with advanced ATC who initially treated with Apatinib. The tumor shrank notably 4 weeks after the initiation of therapy, which sustained for more than 30 weeks. The cervical CT illuminated a stable disease with a best response of 19.7% of the primary lesion and shrinkage of the metastatic lymph node. Adverse events, including hypertension, dental ulcer, hand-foot syndrome, fatigue, and anorexia, were observed and lightened with supportive treatment and dose reductions. The overall survival of the patient was 41 weeks. This is the first report describing the effectiveness of the VEGFR-2 inhibitor for the treatment of advanced ATC, warranting clinical trials to further ascertain its utility in this challenging setting.
Anaplastic thyroid carcinoma (ATC), one of the most lethal malignant tumors, is characterized by rapid proliferation, extrathyroidal invasion, and distant metastasis. It is the major cause of thyroid carcinoma-related deaths, with a median survival of 5 months and a 1-year survival rate of 20%.1 Surgery and chemoradiation are recommended if the tumor were locoregionally confined,1–3 but more than half of all patients present with advanced disease at the time of diagnosis, and the efficacies of traditional therapies are very poor.4,5 Therefore, new therapeutic strategies urgently need to be explored.Apatinib, a tyrosine kinase inhibitor, can inhibit multiple tumor-related kinases, such as vascular endothelial growth factor receptor-2 (VEGFR-2), c-Kit, and c-Src6. Our group and others have investigated its safety and efficacy in radioiodine-refractory differentiated thyroid cancer (RR-DTC) patients, which demonstrated an overwhelming metabolic and structural response and tolerable toxicity.7–9 Moreover, preclinical studies demonstrated that Apatinib could inhibit the proliferation of ATC cells in a dose- and time-dependent manner, suggesting a potential in the treatment of patients with ATC.10,11 We, hereby, report an initial attempt to clinically treat ATC with Apatinib.
Case Presentation
A 93-year-old woman with a rapidly growing left-sided neck mass and hoarseness was referred to our department. Baseline computed tomography images showed a 7.6 × 4.2 cm thyroid mass involving the trachea (Figure 1). Laryngoscope indicated left vocal cord fixation. An ultrasound-guided core-needle puncture followed by pathological examinations including immunohistochemical studies with negative for Epithelial Membrane Antigen, Thyroglobulin, Thyroid Transcription Factor-1, Cytokeratin (CK) 19, CK 20 and Villin, but positive for CKpan, Vimentin, CK 7, Ki 67 (60% +), which revealed the diagnosis of ATC with positive expression of VEGFR-2 (Figure 2; rabbit polyclonal antibody, 1:100 dilution; ZSGB-BIO, China). The staging was performed with a positron emission tomography/CT fusion image showing the hypermetabolic thyroid mass and a left lateral neck lymph node metastasis (Figure 3).
Figure 1
Axial view of CT scans of the neck showing regression of the primary lesion and metastatic lymph node. (A) Before treatment, there was a 7.6 × 4.2 cm mass in the thyroid, (B) Before treatment, there was a 1.3 × 1.1 cm left lateral neck metastatic lymph node (arrow), (C) Thirty weeks after treatment, the mass shrank to 6.1 × 3.0 cm, demonstrating a 19.7% decrease in the longest diameter of the lesion, (D) Thirty weeks after treatment, the metastatic lymph node was 0.9 × 0.7 cm in size (arrow).
Figure 2
Pathological findings of ultrasound-guided core-needle puncture tissue. (A) Hematoxylin and eosin staining (×200). The tumor cells lack conventional papillary thyroid carcinoma nuclei and nested or papillary growth pattern, (B) Immunohistochemical staining for VEGFR-2 (×200). Brown color indicates the presence of VEGFR-2, which is observed not only in blood vessels (arrows) but also in the cytoplasm of the cancer cells.
Figure 3
18F-Fluorodeoxyglucose PET/CT showing a thyroid mass with SUVmax of 17.8 and a metastatic lymph node in the left neck with SUVmax of 8.6. Non-specific inflammation of the small mediastinal lymph nodes, physiological uptake in the heart, liver, and spleen, and radioactive excretion through the intestine and kidneys were verified. (A) Maximum intensity projection of PET, (B) Fusion of PET/CT image of the thyroid lesion; (C) Fusion of PET/CT image of the nodal metastasis.
Axial view of CT scans of the neck showing regression of the primary lesion and metastatic lymph node. (A) Before treatment, there was a 7.6 × 4.2 cm mass in the thyroid, (B) Before treatment, there was a 1.3 × 1.1 cm left lateral neck metastatic lymph node (arrow), (C) Thirty weeks after treatment, the mass shrank to 6.1 × 3.0 cm, demonstrating a 19.7% decrease in the longest diameter of the lesion, (D) Thirty weeks after treatment, the metastatic lymph node was 0.9 × 0.7 cm in size (arrow).Pathological findings of ultrasound-guided core-needle puncture tissue. (A) Hematoxylin and eosin staining (×200). The tumor cells lack conventional papillary thyroid carcinoma nuclei and nested or papillary growth pattern, (B) Immunohistochemical staining for VEGFR-2 (×200). Brown color indicates the presence of VEGFR-2, which is observed not only in blood vessels (arrows) but also in the cytoplasm of the cancer cells.18F-Fluorodeoxyglucose PET/CT showing a thyroid mass with SUVmax of 17.8 and a metastatic lymph node in the left neck with SUVmax of 8.6. Non-specific inflammation of the small mediastinal lymph nodes, physiological uptake in the heart, liver, and spleen, and radioactive excretion through the intestine and kidneys were verified. (A) Maximum intensity projection of PET, (B) Fusion of PET/CT image of the thyroid lesion; (C) Fusion of PET/CT image of the nodal metastasis.After the Eastern Cooperative Oncology Group performance status of 3 was obtained, the patient was then started on 250 mg Apatinib twice a day as an off-label use with ethical permission and informed consent in January 2018. The mass shrank notably 4 weeks after the initiation of therapy (Figure 4). Along with the cheerful effect, some unpleasant side effects emerged after 2 weeks of treatment, which were evaluated by Common Terminology Criteria for Adverse Events Version 4.0.12 Hypertension first appeared with the highest blood pressure of 170/100 mmHg (grade 3, which was elevated compared to the blood pressure of <150/90mmHg before Apatinib initiation). A dental ulcer (grade 2) and hand-foot syndrome (grade 3) caused notable pain. Other adverse events included fatigue (grade 3) and anorexia (grade 3). Compromising of these undesirable effects, the patient immediately received a calcium ion antagonist (amlodipine, 5 mg daily) and an external use hormone ointment (fluocinonide ointment, twice a day), and a reduced dose of 250 mg daily 4 weeks after the beginning of the treatment was applied. The patient tolerated treatment well thereafter, except for refractory anorexia.
Figure 4
Photographs of the patient’s left neck demonstrating obvious shrinkage of the thyroid mass. (A) Photograph before treatment, showing a large left-sided neck mass, (B) Four weeks after the treatment, the mass shrank notably, (C) Thirty weeks after the treatment, the mass seemed to shrink a bit more.
Photographs of the patient’s left neck demonstrating obvious shrinkage of the thyroid mass. (A) Photograph before treatment, showing a large left-sided neck mass, (B) Four weeks after the treatment, the mass shrank notably, (C) Thirty weeks after the treatment, the mass seemed to shrink a bit more.The therapeutic response sustained more than 30 weeks when cervical CT illuminated a stable disease with a best response of 19.7% of baseline in the longest diameter of the primary lesion and shrinkage of metastatic lymph node according to Response Evaluation Criteria in Solid Tumors version 1.1 (Figure 1). No progression evidence was found during the Apatinib treatment. Unfortunately, she died from pneumonia and respiratory failure when the total duration of Apatinib treatment was 41 weeks.
Discussion
In all thyroid cancer types, the prognosis of ATC is most dismal, and the management of ATC remains most challenging. Although previous analyses have reported that the extent of traditional therapeutics, such as surgery, radiotherapy, and chemotherapy, may be associated with the length of survival,13,14 the overall therapeutic effect is awful.Our patient was not amenable to the above conventional treatment options considering her old age and locally advanced disease at the time of diagnosis.15 New therapeutic strategies were urgently needed. Since increased VEGFR expression had been found in the microvascular endothelial cells of ATCtumor specimens,16 and agents targeting VEGFR could block the effects of vascular endothelial growth factor and play antiangiogenic and antitumor roles in solid tumors,6,17 we hypothesized that agents targeting VEGFR may also play an antitumor role in ATCpatients.Apatinib, a novel tyrosine kinase inhibitor that has highly selective competition in the ATP binding site of VEGFR-2, blocks down pathways and inhibits tumor angiogenesis.18,19 It also mildly inhibits c-Kit and c-Src.20 Preclinical studies have also demonstrated that Apatinib plays an important antitumor role in ATC via suppressing the AKT/GSK3β/ANG signal pathway,10,11 which can be activated when VEGFR-2 activates the phosphatidylinositol 3-kinase.21 Moreover, it has been demonstrated that overwhelming efficacy has been achieved in RR-DTC, and ATCtumors evolve from a background of DTC.7,22 All the above evidence favored Apatinib as a choice for this ATCpatient. Additionally, the value of gene examinations needs to be thoroughly evaluated in decision-making using an appropriate sample size of ATCpatients since they have succeeded in methodology.23As a result, gratifying outcomes were achieved regarding a durable response and overall survival of more than 30 and 41 weeks, respectively. Although the degree of tracheal stenosis was slightly more severe than that before treatment due to tumor invasion, the longest diameter of the tumor diminished from 7.6 cm to 6.1 cm. This endeavor may pave a way to new adjuvant therapy for surgery, which has been previously reported in RR-DTC by our team.9 Hypertension, hand-foot syndrome, dental ulcer, fatigue, and decreased appetite were observed, which are known classical side effects of VEGFR-targeted treatments,17 which were lightened with supportive treatment and dose reductions as reported by our group and others.24,25 Pneumonia and respiratory failure beyond of known Apatinib-induced adverse events were considered as the causes of death instead of complications related to the treatment, which may be further explained by decreased cough reflex associated with severely aging, difficulty of expectoration due to tracheal stenosis, and the absence of objective disease progression.17,26Lenvatinib, another multikinase inhibitor, has been approved for utilization in patients with unresectable ATC in Japan. A phase II clinical trial revealed a median OS of 10.6 months and response rate with partial response and stable disease in 4/17 and 12/17 patients, respectively.27 Another study enrolled 3 patients; 2 were stable, and 1 had a mixed response to Lenvatinib therapy.28 Additionally, for those with BRAF-mutated ATC, the FDA has approved the combination of Dabrafenib and Trametinib for treatment as of May 2018.29 However, these agents are commercially unavailable or unapproved in China by now. In addition, resistance to the above drugs is a common challenge, thereby necessitating second-line or salvage therapies.27,30–33
Conclusion
To the best of our knowledge, this is the first case study of Apatinib treatment for ATC. The prompt and sustained response suggests the possibility that inhibitors targeting VEGFR-2 may be a novel option to control advanced ATC, warranting clinical verifications with larger sample sizes.
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